Mixing apparatus



Filed Sept. 29, 1950 May 5, 1953 R. D. BOUTROS ETAL 2,637,538

MIXING APPARATUS 6 Sheets-Sheet 1 6 Sheets-Sheet 55 Iss- MIXING APPARATUS May 5, 1953 Filed Sept. 29, 1950 INVENTOR BY w m. ro'lv mrm/v rytlb ITTDRNEY May 5, 1953 v I R. D. BOUTROS EI'AL MIXING APPARATUS 6 Sheets-Sheet 5 Filed Sept. 29, 1950 RICHARD JAMES BY AND MIL THEIR AUORNEY M y 5, 1953 R. D. Boumos Em 2,637,538

MIXING APPARATUS Filed Sept. 29. 1950 6 Sheets-Sheet 6 Junuuumacw INVEN TOR fi -W @ZZ-Q MO flOWE BY Mp MILTON 0mm msm Arron/Er Patented May 5, 1953 2,637,538 MIXING APPARATUS Richard D. Boutros, James V. Donohoe, and Milton Dykman, Brighton, N; Y., assignors to Mixing Equipment C0.,-Inc., Rochester, N. Y., a corporation of New York Application September 29, 1950, Serial No. 187,444

This invention relates to agitating apparatus, and more particularly, to the type adaptedlto enter through the top of a fluid-containing receptacle, one object of the invention being to provide an improvedagitating apparatus of this variety having a more simple and efficient type of construction and producing an improved and more eflicient agitating action.

In the batch mixing of paint and the like it is common to use a series of open top fluid-containing receptacles which from time to time require the addition of mechanical agitating means to accelerate the intermixing and blending of the materials, and another object of this invention is to provide an improved agitating apparatus which is adapted to be quickly and readily moved from an operating position in one receptacle to a similar position in a second receptacle.

Another object of the-invention i to provide an agitating apparatus in which the agitator'can be quickly and easily lowered into operating position for agitating the contents of the receptacle and which, when it is desired to remove the agitating apparatus, may be quickly raised above the top of the receptacle out of operatin position.

Another object of the invention is to provide an agitating apparatus having the above advantages which is provided with baflles for improving the agitating action and greatly decreasing the time required for mixing.

Another object is to provide an agitating apparatus of the above character in which the baflies are automatically raised and lowered with the raising and lowering of the agitator.

Another object is to provide an eflicient agireadily cleaned and the agitator and bailies 'prepared for use with a difierent material in a second receptacle.

Still a further obj ect is to provide an agitating apparatus having the above advantages in a more practical and efiicient type of construction capable of being readily manufactured and assembled and of operating in an improved and more efficient manner. i

To these and other ends the invention resides in certain improvements and combinations of parts, all as will be hereinafter more" fully described, the novel features being pointed out 'in the claims at theend of the specification.

In the drawings:

1 is an end: elevation showing an agitating apparatus embodyingthe present invention in position astride a fluid-containing receptacle;

Fig. 2 is a plan view in a larger scale of the above agitating apparatus;

Fig. 3 is a side elevation showing the agitator and bafiies in the lowered or operating position;

Fig; 4 is similar to Fig. 3 but shows th agitator and baflles in the raised or non-operating position;

Fig. 5 is an enlarged, fragmentary, sectional elevation substantially along line 55 of Fig. 2;

Fig. 6 is an end elevation showing the agitator and baflles in the lowered or operating position;

Fig. 7 is an enlarged fragmentary sectional elevation showing the lower shaft bearing construction;'

Fig. 8 is an enlarged, fragmentary, sectional plan view substantially along line 88 of Fig. 5;

Fig. '9 is a fragmentary sectional elevation substantially along line 99'of Fig. 8;

Fig. 10 is an enlarged, fragmentar elevation, partly in section and partly broken away, showing'the baffle rod guides;

'Fig.'lI is a sectional plan view substantially along line II--ll of Fig. 10, and

Fig. 12 is a sectional elevation of the agitator c'ally extending legs shown generally at 25 (Fig. 3).

'As' shown in Fig. 2, platform 23 comprises two elongated side members 21 and 29 having horizontally extending surfaces 3| and 33, respectively, and vertically extending surfaces (Fig. 3) and 31 (Fig. 5), respectively, and two end members 39 (Fig. 2) and M (Fig. 6) having horizontally extending surfaces t3 and (Fig. 2), respectively, and vertically extending surfaces, notshown, and'tt (Figs. 1 and 6), respectively. Said side members 2"! and 29 and end members 39 and M comprise metal angle irons, preferably of'steel, having a suitable thickness and strength as well understood in the art, which are welded together to form a rectangular platform 23 as shown in Fig. 2. I

' Legs 25 comprise two vertically extending angle irons 5| (Figs. 2, 3 and 6) similar to the above side and end members; which are fastened in depending position to the corners of platform 23, preferably by welding, as shown in Figs. 2 and 6. Reinforcing gussets 53 are fastened to vertically extending surfaces 35 and 31 of platform side members 21 and 29, respectively, and the corresponding leg members I, as shown in Figs. 2, 3 and 4. Spacer blocks 55 (Fig. 2) having a thickness equal to the thickness of leg members 5| are inserted between vertical surfaces and 31 and reinforcing gussets 53 as shown in Fig. 2. Right and left hand leg members 5I as viewed in Figs. 2 and 3 are welded at the lower ends thereof to leg base supports 51 and 59, respectively, which are short sections of angle iron, similar to that described above, extending parallel to the platform end members II and 39 as shown in Fig. 2.

Leg base supports 51 and 59 have fastened to the opposite ends thereof suitable caster or roller means by which the frame may be easily. moved from a position astride a fluid-containing receptacle to a similar position astride a second fluid-containing receptacle. Although these roller means may be varied to suit particular installations, we prefer to use on one leg base grooved rollers 6| (Fig. 3) which are adapted vto engage a fixed track 63. Rollers 6|, as shown in Fig. 3, are mounted on the right hand leg base 51. The left hand leg base 59 has attached in similar positions two rollers 65 (Fig. 3) of suitable diameter adapted to directly contact the floor. A suitable foot operated locking device .51 (Fig. 6) of known construction, having a plunger 69 for frictionally engaging the floor, is

secured to the left leg base 59 for locking said frame in the desired position. It is.to be understood that although the above frame has been shown to be movable it may in certain. instances be preferable to fixthe frame in one location and move the fluid-containing receptacle into position beneath platform 23.

A rectangular plate 1I (Fig. 2 which forms the base of an agitator rotating means or actuating apparatus shown generally at 13 (Fig. 3),

. is secured to platform 23, adjacentthe center a ring 83 which releasably supports a tapered tapered roller bearing ill for engaging and supporting the upper end of said quill. Quill 81 has a worm gear 93, driven by means to be hereinafter described, secured adjacent the midportion thereof by suitable means (not shown).

Reference is made to the patent to Hesse, No. 2,489,642, for a complete disclosure of the construction of this driving gearing including the hollow quill, the worm gear and the quill supporting bearings.

Quill 81 has fastened to the upper end thereof a spiral jaw clutch member 95 (Fig. 5) which is adapted to engage a similar spiral jaw clutch member 91 secured to the agitator driving shaft shown generally at 99 in Figs. 5 and '1. Agitator driving shaft 99 extends vertically through the hollow quill 81 and is independently supported above and below said quill by upper and lower shaft bearings shown generally at I9I and I93 (Fig. 5), respectively. The only connection between quill 81 and drive shaft 99 is through the engagement of spiral jaw clutch members and 91. As a result, shaft 99 is free to move vertically upward through said quill from a position shown in Fig. 3 to the position shown in Fig. 4. At the same time, the quill and the means for driving the quill, to be hereafter described, are free from direct contact with the shaft and are not only protected against any vibration or shocks to which the shaft may be subjected in use, but also are unaffected by lateral deflection of the shaft between its upper and lower bearings.

I The lower or fixed bearing structure, as shown in Figs. 5 and '1, comprises a housing I95 which issecured by bolts I91 (Fig. 5) to flange 19 at the lower end of frame section 11. A removable hollow retaining housing I99, having an outwardly projecting flange III at the lower'end thereof, is inserted through the lower open end of housing I95 and is secured to the above housing I95 by bolts II3. Housing I99 hasan internal diameter substantially greater than the diameter of the shaft and is adapted to releasably position a sleeve bearing II5 which guides and supports the lower end of the agitator driving shaft. Sleeve bearing H5 is prevented from moving upwardly through housing I99 by an inwardly projecting flange II1 (Fig. 7) on the upper end of said housing. A snap ring IIS (Fig. '1) prevents sleeve bearing II5 from moving downwardly and holds saidbearin II 5 in position against said inwardly projecting flange. An oil seal I2I is held in place below sleeve bearing II5 by a retaining and scraper cap-or plate I23, to be hereinafter more fully described, which is fastened to the lower end of housing I95 by the above bolts I3.

The upper bearing I9I as shown in Fig. 5, is adapted to move vertically, by means to be hereafter described, and to carry with it the agitator drive shaft 99 which is rotatably supported therein. Said bearing comprises a movable bearing housing I25 which has a hollow chamber I21 formed therein. Slidably fitted in chamber I21 is a ball bearing I29 of any known or suitable construction, having a tapered internal opening I3I engaging the correspondingly tapered outer surface portion I33 of a sleeve I35 fitted to the drive shaft 99. Sleeve I35 is of resilient metal 'split longitudinally and so capable of being contracted and releasably clamped to the shaft. For this purpose, one end of the sleeve has threadedly engaged therewith a thrust means or lock nut I 31 carrying a washer I39 bearing against one end of a ring I4I slidable longitudinall in a cylindrical portion of the outer surface of sleeve I35. The opposite end of sleeve [4| bears against roller bearing I29 for moving the same longitudinally to oppose the tapered surfaces I 3| and I33 of the bearing and sleeve and so contract and clamp the split sleeve I35 on the shaft. Sleeve I35 is prevented from moving upwardly or downwardly along shaft 99 by snap rings I43 and I45, respectively. Bearing I 29 is prevented from moving upwardly through chamber I21 by snap ring I41.

Drive shaft 99 extends downwardly through platform 23 and has attached at the lower end thereof an agitator I49 shown in Figs. 3, 4: and 12 which is adapted to be positioned within .afluid-containingmeceptacle 11.5 I 'shownby broken .iines :in Figs. 3 and 4 :foragitating .the contents thereof. To :movezframe 121I and-the above agitator from :operating position within one receptacle to a similar position in respect to a second receptacle, it is necessary to raise the agitator I49 and drive shaft-99 to clear the upper edge of the receptacle. Our invention also comprises a novel lift means, to be presently described, for raising and lowering theagitator and drive shaft.

As stated in theabovedescription of the upper shaft bearing IOII, shaft '99 is free to rotate relative to bearing housing I25, but at the same time, said shaft is prevented from moving vertically relative to said housing. To raise and lower bearing housing I25 and shaft 99,, we providea hydraulic means, as shown in Figs. 3, 4 and 5, comprising a pair of vertically extending cylinders I53 having cooperating pistons and piston rods I 55 which extend upwardly through said cylinders and are connecteda-t the upper ends thereof to a crosshead I51 by bolts I59. Cylinders I53 are supportedat the lower ends thereof by a pair of brackets IBI which in turn are fastened to plate H by a pair of depending supporting arms I 5 3. Cylinders I53 are supported at the upper ends thereof by a similar pair of brackets I65, secured to a circular supporting block I61 which in turn forms the top of, and isfastened to, upper cylinderframe section I5. Crosshead; I5! is fastened to movable, bearing housing I25 by bolts I69. Cylinders 553 are provided at theupper and lower ends thereof with suitable nipple. means (not shown), for connection to a. source of fluid pressure as well understood in the art. By applying the-fluid pressure to the lower or blank ends of said cylinders, piston rods I55 may be moved upwardlyv from their positions as shown in Fig. 3 to their positions as shown in Fig. 4, which movement-also raises movable bearing housing I25, agitator driveshaft 99 and spiral jaw clutch. member 91 which is secured tosaid drive shaft. Similarly, piston rods I 55, drive shaft 99, clutch member 91 and bearing housing I25. may Ice-lowered to their positions as shown in Figs. 3 and S by applying. fluid pressure to the rod ends of said cylinders as well understood in the art. The application of fluid pressure to the rod or blank ends of said cylinders is controlledby a suitable valve of known construction (not shown), which is operated by leverIII (Figs. 3, 4 and'l).

In order to assure proper alignmentand concentricity of the movable bearing housing and agitator drive shaft when said housing andshaft are in the lowered or downward positions thereof, we provide said bearing housingatthe outer lower portion thereof with a tapered portion I73 (Figs. 4 and 5) which is adapted to engage a correspondingly tapered bore I75 (Fig. 5) formed in bearingsupport I61.

Should the upper bearing I29 seize, it would subject movable bearinghousing I25 and crosshead I51 to a twisting movement, which movement might seriously damage the above hydraulic lift mechanism. To forestall possible dam.- age of this sort, we provide movable bearing housing I25 with an outwardly projecting pin I II (Fig. 8) which, when the bearing housing is in the lowered position, is adapted tofit into a notched recess [19. formed in housing support IB'I. as shown in Figs. 8 and 9, thereby preventing accidental rotation of movable bearing housing I25 and crosshead I51.

It. :iswell known in the art that the provision of bafiles inxa fluid containing receptacle increases the efficiency ofan agitator operating therein, thereby greatly reducing the. time re.- quiredand. power consumed inach-ieving the desiredintermixing. However, in many instances, receptacles are not provided with baflies because of the expense involved in making such an installation. In addition, the bafiies are difficult to :clean, thereby adding to the maintenance cost and, -moreover, the presence of bafiles-may render the receptacle unsuitable for certain typesof work which, in effect, decreases its flexibility and adaptability. Our. invention also comprises a novel bafiie system, having none of the above disadvantages, which is not fastened to the fluidconta-ining receptacle, 7 but rather is mounted on frame 21 and is adapted to be loweredand raised along with agitator I49 into and out of a fluidcontaining receptacle.

Thev baflie system comprises a pair of rectangularly shaped baflle plates I8I (Fig. 6,) fastened by suitable means (not shown) to the lower ends of vertically extending bafile rodsv I83, as shown in Fig. 6. Baffle rods I83 are secured at the upper ends thereof by bolts I85 to cross arms I8l-which are co-planar with, extend transversely to, and intersect crosshead I51 at the center thereof as shown in Figs. 2 and 6. Cross arms I8l' are welded to crosshead I51. andare secured to movable bearing housing I25 by bolts E89 as shown in Figs. 2 and 6. As a. result, baffle plates I8I and rods I83 will be raised and lowered simultaneously with the corresponding vertical movement of agitator I49. To insure proper alignment of battle plates I 8I, frame. 2|

is provided with means for guidingthe vertical movement of baffle rods I83.

Said baflle guide means shown generallyv at |9I (Figs. 2, 3,- 4, 6 and 11) comprise short sleeve sections I93 (Fig. 11) secured to mounting brackets I95 (Fig. ll) by suitable means (not shown) which in turn are secured at opposite sides of-platform 23 to vertically extending surfaces 35 and 31 by bolts I9! (Fig. 11) as shown in Fig. 2. In. order to prevent material which would clog the baflie guides from being carried upinto sleeve. sections. I93 as the. agitator and bafiles are raised, the internal diameter of said sleeve sections I93 islarger than the outside diameter of bafiierods I83-as shown in Fig. ll. To insureconcentricity between sleeve. sections I93 and baiiie-rods. I 83, and prevent lateral movement therebetween, sleeve I93 is provided with three radially extending holes I99 (Figs.- 10 and 11) into which are fitted three spring loaded guide balls ZEII as. shown in Fig. 11. Although guide balls 2M are undersufficient pressure to hold baffle rods [83in position, theywill move sufficiently to. ride overanymaterial that might be carried upwardly on the baifie rods. Thespring tension on guide balls ZOI can bevaried by adjusting retaining screws 283 (Fig. 11) which are threaded into" the outer portionsof holes. I99.

In order to prevent paint or other materials from being drawn up into the lower shaft bearing as the agitator shaft is raised, the drive shaft99 is undercut forminga lower portion 295 (Fig. 5) which is smaller in diameter than the upper portion 291 as shown in Figs. 5 and 7. With the drive shaft in the lowered or operat ing position, upper portion 291 extends downwardly to a point opposite the lower edge. of dust seal I2I as shown in Fig. 5. At this point. shaft 99 is formed with a tapered portion 2-09 (Fig. joining the larger and smaller diameter portions thereof. Scraper cap I23 has bored therein a correspondingly tapered seat 2II (Fig. 7) adapted to engage said tapered shaft portion 209 when the shaft is in the lowered position. The opening in cap I23 through which agitator shaft 99 passes is somewhat larger in diameter than the lower portion 205, but is not as large as the upper portion 201 of said shaft, as shown in Fig. '7, and, therefore, has a scraping action which removes any large pieces of material carried on the agitator shaft as it moves upwardly from its operating position. Any material remaining on lower shaft portion 205 will be in the form of a thin film or coating and as there is a considerable clearance between the inner diameter of lower shaft sleeve bearing H5 and lower shaft portion 205, as shown in Fig. '1, this material cannot possibly contact or interfere with said bearing.

The power means for driving hollow quill 81 and agitator I49 when in the lowered or operating position comprises preferably an electrohydraulic system. The hydraulic system comprises a tank orreservoir 2I3, shown by broken lines in Figs. 3 and 4, for holding a supply of suitable actuating fluid as, for example, oil, a

reservoir or tank 2I3 and delivers this fluid at high pressure to hydraulic motor 2I1 for driving the same. The exhaust fluid is returned from hydraulic motor 2I1 to reservoir 2I3 by suitable conducting means (not shown) A speed regulating valve of known construction (not shown), operated-by handle 223 (Figs. 3 and 5) controls the rate of fluid flow to the hydraulic motor and thereby controls the operating speed of said motor, and thus the operating speed of quill 81 and agitator I49. The hydraulic system is provided with a second or shut-off valve (not shown), actuated by lever 225 (Figs. 3 and 6), which opens and closes the hydraulic line between the above speed control valve and hydraulic motor 2I1.

Hydraulic pump 2I5 is also connected on the pressure side thereof to the hydraulic lift control valve (not shown) which regulates the abplication of fluid pressure to the rod or blank ends of hydraulic cylinders I 53. A suitable pressure relief valve of known construction is inserted in the high pressure discharge line leading from hydraulic pump 2l5. This relief valve is set to vent the hydraulic line into reservoir 2I3 when the pressure in said line exceeds a given amount, thereby protecting both the hydraulic lift apparatus and the hydraulic driving mechanism from possible damage due to excessive fluid pressure in the hydraulic system.

In operation, therefore, the agitating apparatus, with the agitator I49 and baffles I 8I in the raised positions as shown in Fig. 1, is moved into the desired position over a fluid-containing receptacle I5I (Fig. l). The frame is releasably locked in the above position by depressing floor locking plunger 69. 22I is connected to a suitable source of electric power, agitator I49 and baffles I8I can be lowoperating positions as shown in Figs. 3 and 6 by As soon as electric motor a moving lever IN to the lower position thereby directing the high pressure fluid to the rod ends of hydraulic cylinders I53 and at the same time venting the fluid line leading from the blank ends of said cylinders into reservoir 2I3. This valve also opens an auxiliary fluid line connecting hydraulic pump 2I5 and hydraulic motor 2I1 and allows a small amount of high pressure fluid to pass into said hydraulic motor causing the motor to turn over at a low speed. This movement is transmitted through coupling 2I9 to the above worm which drives worm gear 93 secured to quill 81. This rotates the lower, spiral-jaw, clutch member 95 at a very low speed and insures positive engagement between clutch member 95, secured to quill 81, and clutch member 91, secured to drive shaft 99, as said drive shaft and clutch member 91 are moved into the lowered or operating positions thereof.

The tapered portion I13 on movable bearing housing I25, which, when in the lowered position thereof, engages tapered bore I15 in support I61 insring proper alignment and concentricity between driving shaft 99 and quill 81 and between clutch members 95 and 91. When drive shaft 99 has reached its lowered position as shown in Figs. 3 and 5, control lever I1I is returned to its center position.

To start the agitator, control lever 225 is moved to the run position which opens the high pressure fluid line between hydraulic pump 2| 5. the abo e speed regulating valve and hydraulic motor 2I1 causing said motor to rotate. As pointed out above, this rotary motion is transmitted to clutch member 95 which is now in driving engagement with clutch member 91, secured to agitator drive shaft 99. The speed of the agitator can be easily varied by adjusting the speed regulating valve which increases or decreases the rate of fluid flow to the hydraulic motor. A small amount of exhaust fluid from hydraulic motor 2 I 1 is bled into the rod ends of hydraulic cylinders I53 insuring the proper seating of movable bearing housing I25 on support I61 and the proper enga ement of clutch members 95 and 91.

After the agitation is completed, the agitator and baffles are raised by moving lever I1I to the opposite or raise position, which, by means of the above regulating valve, directs the high press re fluid to the blank ends of cylinder I53 and vents the fluid lines leading from'the rod ends of the cylinders into reservoir 2I3. Thereafter, the apparatus can be easily rolled to a new position.

Although, under normal circumstances, the agitator drive mechanism would be turned off before the shaft is raised. it is evident that no harm would result from raising the a itator while it is being driven, for as dri e shaft 99 moves upwardlv, clutch member 91, fastened thereto, quickly moves out of engagement with clutch member 95, thereby disengaging the agitator drive shaft from the driving mechanism.

Thus it will be seen that the above invention supplies an agitating apparatus which is readily adapted for use with a plurality of open-top, fluid-containing receptacles, as commonly used in the batch mixing of paint and the like. The apparatus can be quickly and easily positioned over a fluid-containing receptacle, the agitator and baffles lowered into operating position and, after proper agitation, the agitator and baffles raised to theirnon-operating positions. The agitating apparatus can then be moved to a similar position over a second receptacle for further agitation, or the agitator and baffles can be easily cleaned by ,9, merely lowering theminto' a receptacle contain"- ing' a cleaning fluid and running the agitator for a suitable length of time within said fluid. As a result, the-above apparatus, at a greatly smaller cost, can quickly and efficiently perform the same work as would normally require several separate agitating devices.

The above hydraulic: power means can be eliminated and electric motor: 221 connected to coupling 2| 9' either directly or througha'ny' known and suitable speed-control mechanism, as for example; V-belts' and conepulleys, Ifthis is done, the liydrauliclif-t mechanism can be operated'by a suitable supply of air or Waterpressure, which isconnectedtothe' above elevating control valve. Except'for the provision for slowly'turning quill 81 and clutch member 95 as drive shaft 99 and 'clutch'member'ill are lowered into their operating position, the above agitating device operates in the same manner as above. Where external power is used with cylinders as above, variable speed-can be obtained by V-belts or other means of speed variation.

It will thus be seen that the invention accompl-ishes' its objects and while it has been herein disclosedby reference to the details of preferred embodiments, it is to-be understood that such disclosure is intended in an illustrative rather than a limiting-sensepa's'it is'contemplated that variousmodifications'inthe construction and arrangement of the parts will readily occur to those skilled in the art, within the spirit of the invention and the'scope of the appended claims.

We claim:

1. An agitating apparatus comprising a frame having bearing means, a shaft slidable longitudinally in said bearing means and provided with an agitator, meansfor rotating said shaft andagitator, and means comprising an electric motor for-"sliding said-shaftto lower and raise said agitator relative to said motor and'rotating means into and out of a receptacle.

2. An agitatin'gapparatus comprising a frame havin'g'spaced bearing means, a shaft rotatable and slidable longitudinally in said bearing means andprovidedwith an agitator, electric. motor means and an hydraulic means actuated by'said electric motor-means for rotating said shaft and agitator, and means for sliding said shaft to lower and raisesaid agitator relative to said motor means and hydraulic means into and out of a receptacle.

3. An agitating apparatus comprising an agitator, a shaft connected to said agitator fordriving the same, a quill enclosing said shaft in spaced relation'tl'i erewith; flexible driving means connecting said quill with saidshaft, a fluid pres sure system provided with means for driving said quill, and for lowering andraising said shaft and agitator into and out of a receptacle, and electric motor means for operating said fluid pressure system;

41 An agitat ng apparatus comprising an agitatonashaft connected-to said agitator for driving thesame, a. quill enclosing said shaft in spaced relation therewith, flexible driving means connecting said quill with said shaft, gearing'for driving said'quill, hydraulic means for driving said gearing, means for lowering and raising said agitator into and out of a receptacle, and motor means for actuating said hydraulic means.

5. An apparatus for agitating the contents of an open-top receptacle and comprising a frame provided with hearing means, a shaft rotatable and slidable in said bearing means and provided 10 with an agitator, means for rotatingsaid agitator, baffle means movably mounted on said-frame, and power operated means on said frame for lowering and raising said agitator and said bailie means relative to said rotating means into and out of 'said'receptacle:

6'. An apparatus for agitating the contentsof an Open tOp reGeptacle and comprising a frame provided with bearing 1neans,-a shaft rotatable and slidable in said bearing means and provided with an agitator, means for rotating'said agitator, battle means movably mounted'on saidframe, and a common power operated meansfor simultaneously lowering: and raising said agitator and haiile means relative to said rotating means'into and out oi' a receptacle.

7. An agitating apparatus comprising" aframe movable to and'i'rom'a position astride a fluidco'ntaining receptacle, saidframe having a sub stantially horizontalplatform means, sup-porting leg means at opposite ends of said platform means, agitating means mounted on said platform'means, means on said frame for driving said agitating means, meansfor lowerin and raising said agitatingmeans relative to said frame into and out of a'receptacle, and clutch means for connecting said driving and agitating means operated automatically by the lowering and rais ingmovements of said agitating means.

8. An agitating apparatus comprising a'frame adapted to be positioned above a fluid-containing receptacle, agitating means mounted on said frame, b'aiile means mounted on said frame, means'on said frame for driving said agitating means meansfor lowering and'raisingsaid agi tatingmeans and baffle means relative to said driving means into and out of said receptacle, and means for automatically disengagin said driving'means when said agitating means and baffle means are raised, said disengagingmeans'compri's'ng a pair of cooperating clutch members adapted to move in and out ofeng'agement with one another as said-agitating means and bafile means are lowered and raised.

91 an" agitatin apparatus comprising a frame adapted to be positioned above a'fluid-containing receptacle, agitating means mounted on said frame, bafiie means mounted on said frame, means for driving said'agitating means, means for lowering and raising said agitating means and baffle means into and out of said receptacle, andcooperating centering means on said frame and said agitating means for centering said agitating means and bafiie means in thelowered positions thereof and for limiting the downward movement of said agitating means and bafiie means.

10-. An agitating apparatus comprising'a frame adaptedto bepositioned above a fluid-containing receptacle, agitating means mounted on said frame,' baffle means mounted on said frame, means on said frame for driving said agitating meana'means for lowering and raising said agitating-means and baflie meansinto and out'of said receptacle, and centering mean's'on' said frame and agitating means for-'cent'erin'g'said agitating means and bafilemeans inth'e lowered position thereof and for limiting the downward movement of said agitating means and baffle means, said centering means comprising a pair of cooperating members, one of said members having a tapered bore formed therein, the other of said members having a projectin tapered portion adapted to engage said tapered bore as said lowered positions.

11. An agitating apparatus comprising an agitator, a frame adapted to be positioned above a fluid-containing receptacle, agitating means mounted on said frame, means on said frame for driving said agitating means, means for lowering and raising said agitating means into and out of said receptacle, and centering means on said frame and agitating means for centering said agitating means in the lowered position thereof and for limiting the downward movement of said agitating means, said centering means comprising a support on said frame having a tapered bore formed therein, a movable bearing housing on said lowering and raising means rotatably supporting one end of said agitating means and having a tapered portion adapted to engage the tapered bore of said support as said agitating means is lowered into the downward or operating position thereof.

12. An agitating apparatus comprising a frame adapted to be positioned above a fluid-containing receptacle, agitating means mounted on said frame, bafiie means mounted on said frame, means for driving said agitating means, means for lowering and raising said agitating means and bafiie means into and out of said receptacle, cooperating centering means on said frame and agitating means for centering said agitating means in the downward or lowered position thereof and for limiting the downward movement of said agitating means and baffle means, and means for automatically disengaging said agitator driving means as said agitator means and baffie means are raised.

13. An agitating apparatus comprising a frame adapted to be positioned above a fluid-containing receptacle, agitating means mounted on said frame, baffle means mounted on said frame, means on said frame for driving said agitating means, means for lowering and raising said agitating means and baflie means into and out of said receptacle, cooperatin centering means on said frame and agitating means for centering said agitating means in the lowered position thereof and for limiting the downward movement of said agitating means and said baffle means, and means for automatically disengaging said agitator driving means as said agitator means and baffle means are raised.

14. An agitatin apparatus comprising a shaft, an agitator on said shaft, means for lowering and raising said shaft and agitator into and out of a receptacle, means for rotating said shaft, and spaced upper and lower bearing means rotatably supporting said shaft, said upper bearing means being movable with said shaft, the lower portion of said shaft having a smaller diameter than the upper portion thereof, for movement through, but out of contact with, said lower bearing means for preventing transfer by said shaft of the contents of the receptacle to said lower bearing means as said shaft and agitator are raised.

15. An agitating apparatus comprising a shaft, an agitator on said shaft, means for lowering and raising said shaft and agitator into and out of a receptacle, means for rotatin said shaft,

spaced upper and lower bearing means rotatably supporting said shaft, said upper bearing means being movable with said shaft, the lower portion of said shaft having a smaller diameter than the upper portion thereof, for movement through but out of contact with, said lower bearin means for preventing transfer by said shaft of the contents of the receptacle to said lower bearing means as said shaft and agitator are raised, and scraper means located below said lower bearing means and closely engaging the lower portion of said shaft for partially removing the contents of the receptacle from said shaft as said shaft and agitator are raised.

16. An agitating apparatus comprising a frame adapted to be positioned above a fluid containing receptacle, a shaft mounted on said frame, an agitator on said shaft, baffle means, means for lowering and raising said shaft and bafiie means into and out of a receptacle, means for rotating said shaft, bearing means on said frame for supporting said shaft, the lower portion of said shaft having a smaller diameter than the upper por tion thereof for movement through, but out of contact with, said bearing means for preventing transfer by said shaft of the contents of the receptacle to said bearing means as said shaft is raised, and guide means on said frame for supporting said baffle means, said guide means having guiding balls in supporting engagement'with said baflle means for preventing transfer by said baffle means of the contents of the receptacle to said guide means as said baffle means is raised.

17. An agitating apparatus comprising a frame movable to and from a position above a fluidcontaining receptacle, a crosshead movably mounted on said frame, agitating means rotatably supported by said crosshead, baffie means mounted on said crosshead, hydraulic means for moving said crosshead for lowering and raising said agitatin means and baffle means into and out of a receptacle, cooperating centering means on said frame and said crosshead for centering said agitating means in the lowered position thereof and for limiting the downward movement of said agitating means and said bafiie means, means for driving said agitating means, and means for automatically disengaging said driving means as said crosshead is raised.

RICHARD D. BOUTROS. JAMES V. DONOI-IOE. MILTON DYKMAN.

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 1,228,823 Robertson June 5, 1917 1,291,728 Beach Jan. 21, 1919 1,354,230 Walther et al Sept. 28, 1920 1,401,475 Jensen Dec. 27, 1921 1,431,715 Wolters Oct. 10, 1922 1,485,205 Sturtevant Feb. 26, 1924 1,838,004 Scarlett Dec. 22, 1931 1,843,315 Blish et al Feb. 2, 1932 2,115,956 Jorgensen May 3, 1938 2,389,498 Gates Nov. 20, 1945 2,481,731 Dub.n Sept. 23, 1949 

